You’ve done everything right. Swapped your regular soda for a diet version. Watched your calories. Maybe even felt a little proud. But what if that “smart” choice is actually working against you – making your brain turn up the hunger dial instead
Sweet Without Sugar – But Your Body Isn’t Fooled
New research from the University of Southern California suggests that the body doesn’t always respond as we expect when we opt for calorie-free alternatives.
In a study involving 75 participants, researchers scanned their brains after drinking three different beverages: plain water, sugar-sweetened soda, and soda sweetened with sucralose.
The results showed that the artificial sweetener activated brain areas typically associated with hunger.
And the reaction wasn’t subtle – it was particularly pronounced in participants with overweight, where communication between the brain’s appetite center and reward system intensified.
The Brain’s Reward System Responds Differently
The hypothalamus, a region responsible for regulating hunger and body weight, became notably more active after consumption of the sucralose-sweetened drink.
The familiar taste of sweetness without the expected energy from sugar seemed to confuse the brain – as if it had been promised something it didn’t receive.
This wasn’t just a pattern on a brain scan; participants also reported feeling hungrier after drinking the artificially sweetened soda.
The body had initiated its response to sweetness, but without calories to match, it seemed to be left searching for more.
A Shortcut to Fewer Calories – Or More Cravings?
While sweeteners are often seen as a clever strategy for weight management, this research suggests they might backfire for some people.
When the brain and body are out of sync, it could lead to increased food cravings – not fewer.
The researchers don’t argue that sweeteners are harmful per se, but emphasize that their neurological effects shouldn’t be overlooked.
Especially when the goal is to eat less – and your brain, unknowingly, drives you to eat more instead.
The study was published in the scientific journal Nature Metabolism and led by researchers Chakravartti, Jann, and Veit from the University of Southern California.
This article is based on information from Illustreret Videnskab